Prospects of using hybrid local coordinate systems based on SCS-2011

Geodesy
UDC: 
528.236
DOI: 
10.22389/0016-7126-2023-998-8-2-12
1 Obidenko V.I.
Year: 
2023
№: 
8
998
Pages: 
2-12

Siberian State University of Geosystems and Technologies

1, 
Abstract:
The author presents the results of an experiment on the practical implementation of the methodology for creating a hybrid local coordinate system LCS_2011(95), based on SCS-2011, where flat rectangular coordinates coincide with similar ones in CS-95. The study was carried out in the Novosibirsk oblast, the territory of which is located within three 6° coordinate zones SCS-2011 (CS-95). It is shown that in order to create a LCS_2011(95) in a region that includes several such areas, it is required to use transformation algorithms adequate in terms of accuracy. The research confirmed high accuracy of creating a LCS_2011(95) in the territory located within three mentioned zones. The parameters of the orthogonal transition between SCS-2011 and LCS_2011(95) enabled making transformation of planned coordinates between these coordinate systems with a root-mean-square error (RMSE) of 7 cm. An independent assessment of the accuracy of the parameters, carried out by recalculating with their use from SCS-2011 to LCS_2011(95) the coordinates of 335 SGN control points, which were obtained through the satellite method in SCS-2011, confirmed the result. The RMSE of transforming the planned coordinates of 335 control points of the SGN from SCS-2011 to LCS_2011(95) was 8 cm. Prospects for using LCS for the conservation of spatial data funds created in CS-95, including those in territories extending in longitude for several 6° SCS-2011 (CS-95) coordinate zones, are shown
References: 
1.   Gorobec V.P., Efimov G.N., Pobedinskij G.G., Stolyarov I.A. Gosudarstvennaya geodezicheskaya sistema koordinat GSK-2011. Rezul'taty sozdaniya i perspektivy primeneniya. 17-j Mezhdunar. nauch.-prom. forum «Velikie reki–2015» / Tr. nauch. kongr., Nizhnij Novgorod: izd. NNGASU, 2015, V 3-h tomah. Vol. 1, pp. 417–430. URL: http://nngasu.ru/word/reki2016/velikie_reki_tom_1_2015.pdf
2.   Gorobets V. P., Efimov G. N., Stolyarov I. A. Opyt Rossiiskoi Federatsii po ustanovleniyu gosudarstvennoi sistemy koordinat 2011 goda. Vestnik of SSUGT, 2015, no. 2 (30), pp. 24–37.
3.   Kaftan V. I., Pobedinskii G. G., Savinykh V. P., Stolyarov I. A. Gosudarstvennye sistemy koordinat: analiz sostoyaniya i perspektivy. Nauki o Zemle, 2022, no. 1, pp. 51–62.
4.   Morozov V.P. Kurs sferoidicheskoj geodezii. Izd. 2-e, pererab. i dop. M.: Nedra, 1979, 295 p.
5.   Neiman Yu.M., Sugaipova L.S. (2022) On the coordinate systems transformation. Geodezia i Kartografia, 83(9), pp. 21-29. (In Russian). DOI: 10.22389/0016-7126-2022-987-9-21-29.
6.   Nekhin S.S. Osnovnye problemnye voprosy perevoda kartograficheskogo obespecheniya v sistemu koordinat GSK-2011. Vestnik SGUGiT, 2015, no. 2, pp. 38–47.
7.   Obidenko V.I. (2023) New opportunities and advantages of local coordinate systems created on the basis of SСS-2011. Geodezia i Kartografia, 84(3), pp. 2-13. (In Russian). DOI: 10.22389/0016-7126-2023-993-3-2-13.
8.   Popad'jov V. V., Efimov G. N., Zubinskij V. I. Geodezicheskaya sistema koordinat 2011 goda. Astronomiya, geodeziya i geofizika: Nauchno-tehnicheskij sbornik, Moskva: FGBU «Tsentr geodezii, kartografii i IPD», 2018, pp. 139–228.
9.   Zeng H., Chang G., He H., Li K. (2020) WTLS iterative algorithm of 3D similarity coordinate transformation based on Gibbs vectors. Earth Planets and Space, no. 72 (53), pp. 1–12. DOI: 10.1186/s40623-020-01179-1.
Citation:
Obidenko V.I., 
(2023) Prospects of using hybrid local coordinate systems based on SCS-2011. Geodesy and cartography = Geodezia i Kartografia, 84(8), pp. 2-12. (In Russian). DOI: 10.22389/0016-7126-2023-998-8-2-12
Publication History
Received: 19.06.2023
Accepted: 23.08.2022
Published: 20.09.2023

Content

2023 August DOI:
10.22389/0016-7126-2023-998-8